Finding final Velocity given mass, force, and displacement

AI Thread Summary
To find the final velocity of a 2.78 kg block pulled by a 15.8 N force on a horizontal surface with a coefficient of kinetic friction of 0.106, the work done must be calculated first. The work is determined using the formula W = Fx * Δx, yielding a value of 45.504 N m. The final velocity can then be calculated using the equation Vf = sqrt((2*W)/m). It's essential to consider the net force, which accounts for friction, when calculating the work done. The discussion emphasizes the importance of using the correct values and formulas to arrive at the final velocity.
Bearbull24.5
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Homework Statement



2.78 kg block is pulled (from rest) by a force (horizontal surface) of 15.8 N. The coefficient of kinetic friction is .106. What is the velocity after 2.88 m?

Homework Equations


fk=N(uk)
Vf=sqrt((2*W)/m



The Attempt at a Solution



I attempted to find the final velocity by first finding the work (w=Fx*deltax) and then plugging it into the Vf equation I have listed.
 
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Hi Bearbull24.5! :smile:

(have a mu: µ and a square-root: √ and a delta: ∆ :wink:)
Bearbull24.5 said:
fk=N(uk)
Vf=sqrt((2*W)/m

I attempted to find the final velocity by first finding the work (w=Fx*deltax) and then plugging it into the Vf equation I have listed.

That should be ok (assuming that m is inside the bracket). :confused:

What figures did you get?
 
I got 5.7 for the final velocity and a work of 45.504 N m
 
Do I need to use the coefficient of kinetic friction for anything?
 
Bearbull24.5 said:
I got … work of 45.504 N m

No, you need to use the net force. :wink:
 

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